Litcius/Paper detail

Experimental Characterization of Raman Amplifier Optimization Through Inverse System Design

Uiara C. de Moura, Francesco Da Ros, A. Margareth Rosa Brusin, Andrea Carena, Darko Zibar

2020Journal of Lightwave Technology29 citationsDOIOpen Access PDF

Abstract

Optical communication systems are always evolving to support the need for ever-increasing transmission rates. This demand is supported by the growth in complexity of communication systems which are moving towards ultra-wideband transmission and space-division multiplexing. Both directions will challenge the design, modeling, and optimization of devices, subsystems, and full systems. Amplification is a key functionality to support this growth and in this context, we recently demonstrated a versatile machine learning framework for designing and modeling Raman amplifiers with arbitrary gains. In this article, we perform a thorough experimental characterization of such machine learning framework. The applicability of the proposed approach, as well as its ability to accurately provide flat and tilted gain-profiles, are tested on several practical fiber types, showing errors below 0.5 dB. Moreover, as channel power optimization is heavily employed to further enhance the transmission rate, the tolerance of the framework to variations in the input signal spectral profile is investigated. Results show that the inverse design can provide highly accurate gain-profile adjustments for different input signal power profiles even not considering this information during the training phase.

Topics & Concepts

Electronic engineeringTransmission (telecommunications)AmplifierComputer scienceSIGNAL (programming language)Transmission systemOptical amplifierSignal processingCharacterization (materials science)Power (physics)Channel (broadcasting)InverseInverse problemOptical communicationCommunications systemKey (lock)Systems designOptical fiberOptical powerOptimization problemRaman amplificationInverse systemData transmissionWavelength-division multiplexingOptical performance monitoringSensitivity (control systems)Raman spectroscopyOptimal designEngineeringSignal-to-noise ratio (imaging)Spectral shape analysisSpectral densityRaman scatteringOptical Network TechnologiesPhotonic Crystal and Fiber OpticsAdvanced Photonic Communication Systems